Titlebook: Hearing - From Sensory Processing to Perception; Birger Kollmeier,Georg Klump,Jesko Verhey Conference proceedings 2007 Springer-Verlag Ber

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A Model of Ventral Cochlear Nucleus Units Based on First Order Intervalsophysiological studies reveal a surprising degree of variability in neurons firing behaviour which can be described by the probability distribution function of consecutive spikes, the inter-spike intervals (ISI). A histogram (ISIH) can be constructed to represent the ISI-distribution (ISID) of inter

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Spectral Edges as Optimal Stimuli for the Dorsal Cochlear Nucleuse inferior colliculus (Rouiller 1997). Unlike the neurons of the ventral cochlear nucleus, DCN principal cells give strongly non-linear responses to sound (Nelken et al. 1997; Yu and Young 2000), meaning that models of DCN neurons often do not predict the responses to complex sounds. Such nonlineari

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Imaging Temporal Pitch Processing in the Auditory Pathway 1992), which suggests that there is a hierarchy of temporal pitch processing in the auditory pathway as would be expected from computational models of auditory perception (e.g., Patterson et al. 1995; Pressnitzer et al. 2001). This chapter reports a series of brain imaging studies designed to searc

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Spatiotemporal Encoding of Vowels in Noise Studied with the Responses of Individual Auditory-Nerve Fing of spectral shape based on auditory-nerve (AN) discharge rate degrades significantly at high sound levels, particularly in high spontaneousrate (SR) fibers (Sachs and Young 1979). However, continued support for rate coding has come from the observations that robust spectral coding occurs in some

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